Method of forming connector structure for a ball-grid array

1. A method for forming a connector structure of a ball-grid array (BGA) type in an electronic package having at least one hollow through-hole, comprising at least one metallic ball joined to an electrode of the package at the position of the through-hole on at least one surface of the package, comprising joining the metallic ball to the electrode of the package at the position of the through-hole, the metallic ball being a solder ball which is joined to the electrode by reflowing the solder ball while pressure within the through-hole is controlled.

2. The method of claim 1, wherein the metallic ball is a solder ball directly joined to the electrode of the package, the method including the steps of: sealing an open end of the through-hole on one surface of the package, setting the solder ball on the electrode of the package on the other surface thereof at the position of the through-hole, and subjecting the solder ball to reflowing to join the solder ball to the electrode.

3. The method of claim 1, wherein the metallic ball is a solder ball directly joined to the electrode of the package, the method including the steps of: increasing pressure within the through-hole slightly above atmospheric pressure, setting the solder ball on the electrode of the package on one surface thereof at the position of the through-hole, and subjecting the solder ball to reflowing while pressure within the through-hole is kept slightly above atmospheric pressure.

4. The method of claim 1, wherein the method includes the steps of: increasing pressure within the through-hole slightly above atmospheric pressure, forming a solder-containing layer on the electrode of the package on one surface thereof at the position of the through-hole, setting the metallic ball on the solder-containing layer, and subjecting the solder-containing layer to reflowing to join the metallic ball to the electrode through the solder while the pressure within the through-hole is kept slightly above atmospheric pressure.

5. The method of claim 1, wherein the electronic package has a substrate in which said at least one through-hole is formed, and wherein the substrate has an electrically insulating film overlaid on both surfaces thereof except for the area on at least one surface thereof to which the metallic ball is attached, the method including the steps of: applying a photoresist film to both surfaces of the substrate, forming an opening in the photoresist film on one surface of the substrate at the position of the through-hole by exposure of a selected area of the photoresist film followed by development, setting the metallic ball in the opening of the photoresist film so as to sit it on an electrode of the substrate on said one surface thereof, and subjecting the metallic ball to reflowing to join it to the substrate.

6. A method for forming a connector structure of a ball-grid array (BGA) type in an electronic package having at least one hollow through-hole, comprising at least one metallic ball joined to an electrode of the package at the position of the through-hole on at least one surface of the package, comprising joining the metallic ball to the electrode of the package at the position of the through-hole, the metallic ball being joined to the electrode of the package through solder, the method including melting the solder to join the metallic ball to the electrode through the solder at the position of the through-hole while pressure within the through-hole is controlled.

7. The method of claim 6, wherein the metallic ball has a surface coating of solder and is joined to the electrode of the package through the solder, the method including the steps of: sealing an open end of the through-hole on one surface of the package, setting the metallic ball on the electrode of the package on the other surface thereof at the position of the through-hole, and subjecting the coating of solder to reflowing to join the metallic ball to the electrode through the solder.

8. The method of claim 6, wherein the metallic ball has a surface coating of solder and is joined to the electrode of the package through the solder, the method including the steps of: increasing pressure within the through-hole slightly above atmospheric pressure, setting the metallic ball on the electrode of the package on one surface thereof at the position of the through-hole, and subjecting the coating of solder to reflowing to join the metallic ball to the package through the solder while the pressure within the through hole is kept slightly above atmospheric pressure.

9. The method of claim 6, wherein the method includes the steps of: sealing an open end of the through-hole on one surface of the package, forming a solder-containing layer on the electrode of the package on the other surface thereof at the position of the through-hole, setting the metallic ball on the solder-containing layer, and subjecting the solder-containing layer to reflowing to join the metallic ball to the electrode through the solder.

10. The method of claim 6, wherein the electronic package has a substrate in which said at least one through-hole is formed, and wherein the substrate has an electrically insulating film overlaid on both surfaces thereof except for the area on at least one surface thereof to which the metallic ball is attached, comprising the steps of: applying a photoresist film to both surfaces of the substrate, forming an opening in the photoresist film on one surface of the substrate at the position of the through-hole by exposure of a selected area of the photoresist film followed by development, setting the metallic ball having a surface coating of solder in the opening of the photoresist film so as to sit it on an electrode of the substrate on said one surface thereof, and subjecting the solder coating to reflowing to join the metallic ball to the substrate through the solder.

11. The method of claim 6, wherein the electronic package has a substrate in which said at least one through-hole is formed, and wherein the substrate has an electrically insulating film overlaid on both surfaces thereof except for the area on at least one surface thereof to which the metallic ball is attached, the method including the steps of: applying a photoresist film to both surfaces of the substrate, forming an opening in the photoresist film on one surface of the substrate at the position of the through-hole by exposure of a selected area of the photoresist film followed by development, setting the metallic ball in the opening of the photoresist film so as to sit it on an electrode of the substrate on said one surface thereof, and subjecting the metallic ball to reflowing to join it to the substrate.

12. A method for forming a connector structure of a ball-grid array (BGA) type in an electronic package having at least one hollow through-hole, comprising at least one metallic ball joined to an electrode of the package at the position of the through-hole on at least one surface of the package, comprising joining the metallic ball to the electrode of the package at the position of the through-hole, the metallic ball being joined to the electrode of the package through a metallic bump and solder, the method including melt-forming the metallic bump on the electrode of the package at the position of the through-hole while pressure within the through-hole is controlled.

13. The method of claim 12, wherein the method includes the steps of: sealing an open end of the through-hole on one surface of the package, melt-forming the metallic bump on the electrode of the package on the other surface thereof at the position of the through-hole, forming a solder-containing layer on the metallic bump, setting the metallic ball on the solder-containing layer, and subjecting the solder-containing layer to reflowing to join the metallic ball to the metallic bump through the solder.

14. The method of claim 12, wherein the method includes the steps of: increasing pressure within the through-hole slightly above atmospheric pressure, melt-forming the metallic bump on the electrode of the package on one surface thereof at the position of the through-hole while the pressure within the through-hole is kept slightly above atmospheric pressure, forming a solder-containing layer on the metallic bump, setting the metallic ball on the solder-containing layer, and subjecting the solder-containing layer to reflowing to join the metallic ball to the metallic bump through the solder.